2. Acrylonitrile is produced by the reaction of propylene, ammonia, and oxygen. The feed contains 10 mole% propylene, 12% ammonia, and 78% air. A fractional conversion of 30% of the limiting reactant is achieved a. Write down and balance the stoichiometric equation for this reaction. b. Determine which reactant is limiting. c. What are the percentages by which each of the other reactants is in excess d. Calculate the molar flow rates of all product gas constituents for a 30% conversion of the limiting reactant, taking 100 mol of feed as a basis.

Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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2. Acrylonitrile is produced by the reaction of propylene, ammonia, and oxygen. The feed
contains 10 mole% propylene, 12% ammonia, and 78% air. A fractional conversion of 30%
of the limiting reactant is achieved
a. Write down and balance the stoichiometric equation for this reaction.
b. Determine which reactant is limiting.
c. What are the percentages by which each of the other reactants is in excess
d. Calculate the molar flow rates of all product gas constituents for a 30% conversion
of the limiting reactant, taking 100 mol of feed as a basis.
Transcribed Image Text:2. Acrylonitrile is produced by the reaction of propylene, ammonia, and oxygen. The feed contains 10 mole% propylene, 12% ammonia, and 78% air. A fractional conversion of 30% of the limiting reactant is achieved a. Write down and balance the stoichiometric equation for this reaction. b. Determine which reactant is limiting. c. What are the percentages by which each of the other reactants is in excess d. Calculate the molar flow rates of all product gas constituents for a 30% conversion of the limiting reactant, taking 100 mol of feed as a basis.
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